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Breakthrough in efforts to conserve the Przewalski’s horse

Scientists are celebrating the arrival of the first Przewalski's foal conceived through artificial insemination. Photo: Dolores Reed, Smithsonian Conservation Biology Institute

Scientists are celebrating the arrival of the first Przewalski’s foal conceived through artificial insemination.© Dolores Reed, Smithsonian Conservation Biology Institute

Scientists are celebrating what they describe as a huge breakthrough in efforts to conserve the Przewalski’s horse, with the birth of the first foal born via artificial insemination.

Scientists at the Smithsonian Conservation Biology Institute (SCBI) said the female foal was born on July 27.

SCBI reproductive physiologist Budhan Pukazhenthi and the Przewalski’s horse husbandry team spent seven years working closely with experts at The Wilds conservation center and Auburn University in Alabama to perfect the technique of assisted breeding for the species.

First-time mother Anne with her newborn filly. Scientists are celebrating the arrival of the first Przewalski's foal conceived through artificial insemination. Photo: Dolores Reed, Smithsonian Conservation Biology Institute

First-time mother Anne with her newborn filly. Scientists are celebrating the arrival of the first Przewalski’s foal conceived through artificial insemination. © Dolores Reed, Smithsonian Conservation Biology Institute

Both the filly and the first-time mother, Anne, are in good health and bonding, the scientists report.

“It seems reasonable to assume that reproduction for the Przewalski’s horse would be similar to domestic horses, but it simply isn’t the case,” Pukazhenthi explains.

“After all these years of persevering, I can honestly say I was elated to receive the call informing me that the foal had been born.

“I couldn’t wait to see her!

“This is a major accomplishment, and we hope our success will stimulate more interest in studying and conserving endangered equids around the world.”

Anne was born at the institute and is the daughter of a mare imported from Europe. Her father is the most genetically valuable stallion in the United States. His name is Agi and he also lives at the institute.

The Przewalski’s horse is considered the last wild horse on the planet, although it is often mistaken for a breed of domestic horse, the Norwegian Fjord. Little is known about wild equids despite the extensive knowledge of domestic horses, Equus caballus.

The newborn takes a well-deserved rest. First-time mother Anne with her newborn filly. Scientists are celebrating the arrival of the first Przewalski's foal conceived through artificial insemination. Photo: Dolores Reed, Smithsonian Conservation Biology Institute

The newborn takes a well-deserved rest. © Dolores Reed, Smithsonian Conservation Biology Institute

The usefulness of artificial insemination is that it does not require both animals to be together for a successful mating. The transport of animals to different locations can be difficult, dangerous, costly, and potentially stressful to the individual.

By contrast, the collection of semen can be safely accomplished under the supervision of veterinary staff and significantly improves the efficiency of managing small populations of endangered species.

The birth of Anne and Agi’s filly required hormonal treatments for inducing ovulation in a mare, specialized animal-handling facilities, and conditioning Anne to provide urine samples for hormone monitoring and routine ultrasounds.

This accomplishment validates the importance of integrating animal management in the research and development of assisted reproductive technologies for endangered species.

Using ultrasound technology, Pukazhenthi confirmed the pregnancy about 35 days after the insemination.

The mare’s pregnancy was monitored closely for 11 months, measuring urinary hormone levels and visual keys.

“Anne is a young, first-time mother,” said Dolores Reed, supervisory biologist at the institute.

Anne with her newborn filly.  Photo credit: Dolores Reed, Smithsonian Conservation Biology Institute

Anne with her newborn filly. © Dolores Reed, Smithsonian Conservation Biology Institute

“She had a normal pregnancy that lasted 340 days, and the foaling lasted less than 10 minutes. I’ve raised a lot of foals and other hoofed stock over the years, but this filly feels like an extra-special triumph for us and her species.”

The work is part of a collaboration between the institute, The Wilds and Auburn University with the Conservation Centers for Species Survival, a group of large conservation facilities in North America dedicated to cooperative breeding and research for the advancement of species conservation.

Established in 2005, the Conservation Centers group applies its unique resources for the survival of species with special needs, especially those requiring large living areas, natural group sizes, minimal public disturbance and scientific research.

The institute and The Wilds are members, along with Fossil Rim Wildlife Center, White Oak Conservation, San Diego Zoo Global and Omaha’s Henry Doorly Zoo.

In 2008, veterinarians at the zoo, in cooperation with a human fertility expert from St Louis, performed the first successful vasectomy reversal on a Przewalski’s horse. This was the first procedure of its kind to be performed on an endangered equid species.

Institute scientists were also the first to produce two Persian onager foals via artificial insemination – a landmark event since no other wild equid had been produced via artificial insemination to date.

The Przewalski’s horse is a species native to China and Mongolia that was declared extinct in the wild in 1969.

 Photo: Dolores Reed, Smithsonian Conservation Biology Institute

The new filly stays close to mum. © Dolores Reed, Smithsonian Conservation Biology Institute

Today, about 1500 Przewalski’s horses reside at zoological institutions worldwide, carrying genes from only 14 original animals.

Due to hunting, harsh climate, loss of habitat and loss of water sources, fewer than 500 of this species are left in the wild.

Currently, most live in Mongolia, China and Kazakhstan.

Scientists from the institute are working in remote areas of China using radio collars and Geographic Information System technology to map the movements of these horses, which were reintroduced by Chinese colleagues into their former habitat.

Committed to preserving this species and equid research in general, the institute works to maintain breeding populations that serve as a source of animals for reintroduction.

 

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